Add to ORKGThermal fluctuations in the coatings used to make high reflectors are becoming significant noise sources in precision optical measurements and are particularly relevant to advanced gravitational-wave detectors. There are two recognized sources of coating thermal noise; mechanical loss and thermal dissipation. Thermal dissipation causes thermal fluctuations in the coating which produce noise via the thermoelastic and thermorefractive mechanisms. We treat these mechanisms coherently, give a correction for finite coating thickness, and evaluate the implications for Advanced LIGO
Brownian thermal noise associated with highly reflective mirror coatings is a fundamental limit for ...
Gravitational waves are a prediction of Einstein's general theory of relativity. These waves are cre...
Gravitational waves are detected by measuring length changes between mirrors in the arms of kilometr...
Gravitational waves are detected by measuring length changes between mirrors in the arms of kilomet...
In modern high precision optical instruments, such as in gravitational wave detectors or frequency r...
We analyze the Brownian thermal noise of a multilayer dielectric coating used in high-precision opti...
We analyze the Brownian thermal noise of a multilayer dielectric coating used in high-precision opti...
Thermal noise arising from mechanical loss in high reflective dielectric coatings is a significant s...
A standard quarter-wavelength multilayer optical coating will produce the highest reflectivity for a...
The most sensitive measurements of time and space are made with resonant optical cavities, and these...
Thermal noise in amorphous coatings is a limitation for a wide range of precision experiments such a...
The detection of gravitational waves has established a new and very exciting field of astronomy in t...
The detection of gravitational waves has established a new and very exciting field of astronomy in t...
The detection of gravitational waves has established a new and very exciting field of astronomy in t...
Advanced LIGO's sensitivity will be limited by coating noise. Though this noise depends on beam shap...
Brownian thermal noise associated with highly reflective mirror coatings is a fundamental limit for ...
Gravitational waves are a prediction of Einstein's general theory of relativity. These waves are cre...
Gravitational waves are detected by measuring length changes between mirrors in the arms of kilometr...
Gravitational waves are detected by measuring length changes between mirrors in the arms of kilomet...
In modern high precision optical instruments, such as in gravitational wave detectors or frequency r...
We analyze the Brownian thermal noise of a multilayer dielectric coating used in high-precision opti...
We analyze the Brownian thermal noise of a multilayer dielectric coating used in high-precision opti...
Thermal noise arising from mechanical loss in high reflective dielectric coatings is a significant s...
A standard quarter-wavelength multilayer optical coating will produce the highest reflectivity for a...
The most sensitive measurements of time and space are made with resonant optical cavities, and these...
Thermal noise in amorphous coatings is a limitation for a wide range of precision experiments such a...
The detection of gravitational waves has established a new and very exciting field of astronomy in t...
The detection of gravitational waves has established a new and very exciting field of astronomy in t...
The detection of gravitational waves has established a new and very exciting field of astronomy in t...
Advanced LIGO's sensitivity will be limited by coating noise. Though this noise depends on beam shap...
Brownian thermal noise associated with highly reflective mirror coatings is a fundamental limit for ...
Gravitational waves are a prediction of Einstein's general theory of relativity. These waves are cre...
Gravitational waves are detected by measuring length changes between mirrors in the arms of kilometr...